ALPHANUMERIC INDEX CROSS-REFERENCE (Continued) Motorola Motorola Motorola Motorola Industry Direct Similar Page industry Direct Similar Page Part Number Replacement Replacement Number Part Number Replacement Fleplacement Number 41506 2N6543 3-215 BD179-16 BD179-16 3-268 43104 2N5631 3-105 BD179-6 BD179-6 3-268 8D127 BD157 3-262 BD180 BD180 3-270 8D128 BD158 3-262 BD180-10 BD180-10 3-270 BD123 BD159 3-262 BD180-16 BD 180-10 3-270 BD130 2N3055 3-6 BD180-6 BD180-6 3-270 80131 BD786 3-304 BD185 BD135 3-272 BD132 BD786 3-304 BD186 BD7/8 3-302 BD133 BD787 3-304 BD187 BD787 3-304 BD135 BD135 3-258 BD188 BD788 3-304 BD135-10 BD135-10 3-258 BD189 80189 3-272 BD135-16 8D135-16 3-268 BD190 BD788 3-304 BD135-6 BD135-6 3-258 BD195 MJE3055 3-904 8D136 8D136 3-260 BD196 MJE2955 3-904 BD 136-10 BD136-10 3-260 BD197 MJE3055 3-904 BD136-16 BD136-16 3-260 BD198 MJE2955 3-904 BD136-6 BD136-6 3-260 BD199 MJE3055 3-904 80137 BO137 3-258 BD200 MJE2955 3-904 BD137-10 BD137-10 3-258 BD201 BD795 3-312 BD 137-16 BD137-16 3-258 BD202 BD796 3-314 BD137-6 BD137-6 3-258 BD203 BD79? 3-312 BD138 BD138 3-260 D204 BD798 3314 BD138-10 BD138-10 3-260 BD206 MJE2955T 3-904 BD138-16 BD138-16 3-260 BD207 MJE3055T 3-904 BD138-6 BD138-6 3-260 BD208 MJE2955T 3-904 BD139 BD139 3-258 BD220 2N6123, 3-154 BD139-10 BD139-10 3-258 80221 2N6121 3-154 BD 139-16 BD139-16 3-268 BD222 2N6122 3-154 BD139-6 BD139-6 3-258 BD223 2N6125 3-154 BDt40 BD140 3-260 BD224 2N6124 3-154 BD140-10 BD140-10 3-260 BD225 2N6125 3-154 BD140-16 BD140-16 3-260 BD226 BD135 3-258 BO140-6 BD140-6 3-260 8D227 BD136 3-260 BD157 BD157 3-262 BD228 8D137 3-258 BD158 BD158 3-262 BD229 BD138 3-260 BD159 BD159 3-262 BD230 BD139 3-258 BD165 BD165 3-264 8D231 BO140 3-260 BO166 BD166 3-266 BD233 BD236 3-278 BD167 BD167 3-264 BD234 BD234 3-276 BD168 BD138 3-280 BD235 BD235 3-278 BD169 BD169 3-264 BD236 BD236 3-276 BD170 BD140 3-260 BD237 BD237 3-278 BD175 BD179 3-268 BD238 BD236 3-276 BO175-10 B0179-10 3-268 8D239 BD239 3-280 BD175-16 8D179-16 3-268 BD239A BD239A 3-280 BD175-6 BD179-6 3-268 BD239B 8D239B 3-280 80176 8D176 3-270 BD239C BD239C 3-280 BD176-10 BD176-10 3-270 BO240 BD240 3-280 BD176-16 BD176-16 3-270 BD240A BD240A 3-280 BD176-6 BD176-6 3-270 BD240B BD240B 3-280 BD177 8D179 3-268 BD240C BD240C 3-280 8D177-10 BD179-10 3-268 BD241 BD241 3-282 BD177-16 BD179-16 3-268 BD241A BD241A 3-282 8D177-6 8D179-6 3-268 BD241B BD241B 3-282 BD178 BDt80 3-210 BD241C BO241C 3-282 BD178-10 BD180-10 3-270 BD242 BD242 3-282 8D178-16 BD180-16 _ BD242A BD242A 3-282 BD178-6 BD180-6 3-270 BD242B BD242B 3-282 BD179 BD179 3-268 BO242C 80242 3-282 BD179-10 BD179-10 3-268 BD243 BD243 3-286 *Consult Motorola if a direct replacement is necessary. 1-20TABLE 7 PLASTIC TO-225 Type (continued) Resistive Switching IgCont | Voeoisus) . ts tf fr Pp (Case) Amps Volts Device Type hee @lc Bs Bs @Ic | MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 3 45 BD176 40/250 0.15 3 30 BD176.6 40/100 0.15 3 30 BD176.10 63/160 0.15 3 30 BD176.16 100/250 0.15 3 30 60 MJE181 MJE171 50/250 0.1 0.6 typ ) 0.12 typ 0.1 50 412.5 80 BD179 BD180 40/250 0.15 3 30 BD179.6 BD180.6 40/100 0.15 3 30 BD179.10 BD180.10 63/160 0.15 3 30 BD179.16 BD180.16 100/250 0.15 3 30 MJE182 MJE172 50/250 0.1 0.6 typ | 0.12 typ 0.1 50 12.5 200 BUY49P 30 min 0.5 25 20 4 30 BD185 15 min 2 20 40 40 2N5190 2N5193 25/100 1.5 0.4 typ | 0.4 typ 4.5 2 40 MJE521 MJE371 40 min 1 40 2N6037## 2N6034## 750/18k 2 1.7 typ | 1.2 typ 2 25 40 45 BD437 BD438 40 min 2 3 36 BD675## BD676## 750 min 1.5 40 BD675A## BD676A## 750 min 2 40 BD785 BD786 20 min 2 50 15 BD776## 750 min 2 20 15 60 BD189 15 min 2 20 40 BD440 25 min 2 3 36 BD677## BDG78#4 750 min 1.5 40 BDE77A## BD678A## 750 min 2 40 BD787 BD788 20 min 2 50 15 BD777## BD778## 750 min 2 20 15 2N5191 2N5194 25/100 1.5 0.4 typ | 0.4 typ 1.5 2 40 MJE800##4 MJE700##4 750 min 1.5 V# 40 MJE801#4 MJE701## 750 min 2 l# 40 2N6038## 2N6035## 750/18k 2 1.7 typ | 1.2 typ 2 25: 40 80 2N5192 2N5195 25/100 1.5 0.4 typ | 0.4 typ 1.5 2 40 BD441 BD442 15 min 2 3 36 BD679## BD680## 750 min 1.5 40 BDE79A## BD680A## 750 min 2 40 BD789 BD790 10 min 2 40 15 BD779## BD780## 750 min 2 20) 15 MJE240 MJE250 40/200 0.2 0.15 typ | 0.07 typ 2 40 15 MJE241 MJE251 40/120 0.2 0.15 typ | 0.07 typ 2 40 16 MJE802## MJE702## 750 min 1.5 1# 40 MJE803## MJE703## 750 min 2 V# 40 2N60394# 2N603644 750/18k 2 1.7 typ | 1.2 typ 2 26 40 100 BD681## BD682## 750 min 4.5 40 BD791 BD792 40 min 2 40 15 MJE243 MJE253 40/120 0.2 0.15 typ | 0.07 typ 2 40 15 MJE244 MJE254 25 min 0.2 [0.15 typ | 0.07 typ 2 40 15 5 25 MJE200 MJE210 45/180 2 0.13 typ |0.035 typ 2 65 15 Case 77 (Style 3), # |hfel @ 1 MHz, ## DarlingtonMOTOROLA TECHNICAL DATA = SEMICONDUCTOR ey BD176,-6,-10,-16 BD180,-6,-10 PLASTIC MEDIUM POWER SILICON PNP TRANSISTOR . designed for use in 5.0 to 10 Watt audio amplifiers and drivers utilizing complementary or quasi complementary circuits. 3.0 AMPERES POWER TRANSISTOR PNP SILICON 45, 80 VOLTS @ DC Current Gain hfe = 40 (Min) @ Ic = 0.15 Ade BD180 is compiementary with BD179 @ Available in hee Groups -6, -10, -16 MAXIMUM RATINGS Rating Symbol Value Unit Collector-Emitter Voltage BD176 VcEO 45 Vde BD180 80 Collector-Base Voltage BD176 VcBo 45 Vdc BO180 80 Emitter-Base Voltage VEBO 5.0 Vde Collector Current Ic 3.0 Adc Base Current Ig 1.0 Adc Total Device Dissipation @ Tce = 25C Pp 30 Watts Derate above 25C 240 mwerc Operating and Storage Junction Ty, Tstg | 65 to +150 C Temperature Range THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case 9JC 4.16 C/W ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic Symbol Min | Max | Unit Collector-Emitter Sustaining Voltage* V(BR)CEO Vdc {Ic = 0.1 Ade, Ig = 0) BD176 45 BD180 80 _ Collector Cutoff Current IcBo mAdc (Vcp = 45 Vdc, Ie = 0) BD176 | 01 \Vcg = 80 Vdc, Ip = 0) BD180 |} 01 Emitter Cutoff Current leEBo _ 1.0 | mAdc (Vee = 5.0 Vde, Ic = 0} DC Current Gain 6 FE 40 | 100 {Ic = 0.15 A, Voce = 2.0 V) group -10 63 160 -16 100 250 (lc = 1.0 A, Vce = 2.0 V) 15 = Collector-Emitter Saturation Voltage* VcElsat) _ 0.8 Vde (I = 1.0 Adc, Ig = 0.1 Adc) Base-Emitter On Voltage* VBE(on) _ 1.3 Vdc (I = 1.0 Adc, VcE = 2.0 Vde) Current-Gain Bandwidth Product fT 3.0 _ MHz (ic = 250 mAdc, VcE = 10 Vdc, f = 1.0 MHz) *Pulse Test: Pulse Width = 300 pws, Duty Cycle = = 2.0%. 3-270 30 WATTS t uU F ce a ie | Aap M po q t "23 | K | 4 v wt ~ G R 4 S [4[025 0010 & [a ao ~o| NOTES 1. DIMENSIONING AND TOLERANCING PER ANS! Y14.5M, 1982 2. CONTROLLING DIMENSION: INCH | MILLIMETERS | INCHES | pam [MIN | MAX | MIN | MAX. A | 1080 [ 11.04 [ 0425 | 0435 | stve1 B | 750 | 774 | 0.295 | 0.306 ; PIN 1. EMITTER __| 242 | 2.66 0.105. 2. COLLECTOR Do | 051 | 0.66 3. BASE # [293 [317] G 23088C [| 0.094BSC H | 127] 241 [0.050 | 0.005 | J, 039 | 063 | 0015 | 0.025 | 1461 | 16.63 ; 0.575 | 0.655 | | M 3 TYP ery | le 376 | 401 | 0.148 | 0.168 | Rk | 1 F139 | 00 0.055 Ls To64 | 088 | 002 u_| 369 | 3.93 | 0.148 [ose _ [ 102 | ~ | a0 | CASE 77-06 TO-225AA TYPEIc, COLLECTOR CURRENT (AMP) BD176,-6,-10,-16, BD180,-6,-10 FIGURE 1 ACTIVE-REGION SAFE OPERATING AREA 10 70 100 us 5.0 3.0 2.0 10 07 05 Ty = 150C SECONDARY BREAKDOWN LIMITATION 03 THERMAL LIMITATION imait for: (BASE-EMITTER DISSIPATION 1S BDI76 02 SIGNIFICANT ABOVE 1c = 2.0 AMP) - nt PULSE DUTY CYCLE < 10% apiea 10 20 30 50 70 10 20 30 50 70 100 Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) The Safe Operating Area Curves indicate IVce_g limits beiow which the device will not enter secondary breakdown. Collector load lines for specific circuits must fall within the applicable Safe Area to avoid causing a catastrophic failure. To insure operation below the maximum Ty, power-temperature derating must be ob- served for both steady state and pulse power conditions. FIGURE 2 - COLLECTOR SATURATION REGION =O1A Veg COLLECTOR-EMITTER VOLTAGE (VOLTS) 0.2 05 FIGURE 3CURRENT GAIN 700 Vor 2 500 ce 100 hee, DC CURRENT GAIN 203.0 50 10 20 30 50 100 le, COLLECTOR CURRENT (mA) c ORC m FIGU 10 07 50 03 0.2 01 - 4 G07 f- z Fink SINGLE PULSE. 6.05 THERMAL RESISTANCE 0.03 F- 002 r(t}), NORMALIZED EFFECTIVE TRANSIENT 0.01 001 0.02 0.03 0.05 G4 0? C3 O05 1G 2.0 3-271 5.0 10 tg, BASE CURRENT (ma) I 5THERMAL RESPONSE 30 50 10 20. 30 50 100 200 300 500 t, TIME OR PULSE WIDTH (ms) 0.5A 20 50 100 FIGURE 4ON VOLTAGE Vae (x0) @ Ic/lp + 10 VOLTAGE (VOLTS) @Vee 20 Vee tren) @le/lg = 10 030 50 10 20 30 50 = 100 = 200 300500 Ic, COLLECTOR CURRENT (ma: 1000 2000 Bact) = 1 Aye Bsc = 4.)6CW Max Bac ~ 3.5C/W Typ D CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME At ty Tatpty Te = Pipty Pact! meth tr DUTY CYCLE, D = ty/t, 1000